Elsevier

Scripta Metallurgica

Volume 8, Issue 5, May 1974, Pages 559-562
Scripta Metallurgica

On the driving force for the growth and dissolution of grain boundary allotriomorphs by the “collector plates” mechanism

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Cited by (3)

  • Austenite formation and cementite dissolution during intercritical annealing of a medium-manganese steel from a martensitic condition

    2021, Materials and Design
    Citation Excerpt :

    Regardless of whether freshly nucleated or growth from an existing austenite remnant, it is clear that the film-like austenite present in the AQ microstructure does not need to be preserved upon heating in order to produce the film-like austenite observed after intercritical annealing. It is presumed that the film-like microstructure observed after intercritical annealing is caused rapid growth of austenite along martensite lath boundaries stimulated by interface-enhanced diffusion [48]. After a lath boundary is covered with a thin film of austenite, the austenite film would then predominantly grow via thickening into the martensite lath.

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